Record controlled and record making accounting machine



June 23, 1936. J, w. BRYCE 2,045,435

RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Filed Nov. 27, 1931 14 Sheets-Shee l 'r s M N you W W N W l W 5pm RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Filed Nov. 2'7, 1951 14 sheds-sheet 2 l v am: c n:

(D BY g l: /fI/V ATTORNEYQ NG MACHINE J. W. BRYCE June 23, 1936.

RECORD CONTROLLED AND RECORD MAKING AGCOUNTI Filed Nov. 2'7, 1931 14 Sheets-Sheet 5 June 23, 1936. J, w, Y E 2,045,435

RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Filed Nov. 27, 1931 14 Sheets-Sheet 4 ATTORNEYS NG MACHINE June 23, 1936. J. w. BRYCE RECORD CONTROLLED AND RECORD MAKING ACCOUNTI Filed NOV. 27, 1931 14 Sheets-Sheet 5 INN INVENTOR- ATTORNEY June 23, 1936. J. w. BRYCE 2,045,435

RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Fi\].ed Nov. 27, 1931 14 Sheets-Sheet 6 ATTORNEYS NG MACHINE June 23, 1936. J. w. BRYCE RECORD CONTROLLED AND RECORD MAKING ACCOUNTI 14 Sheets-Sheet 7 Filed No 27, 1931 INVENTOR- ATTORNEYS June 23, 1936. J. w; BRYCE 2,045,435

RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Filed Nov. 27, 1951 14 Sheets-sheaf; 8

E g /55 5 m 154 INVENTOR- ATTORNEY5 June 23, 1936. J. w. BRYCE 2,045,435

RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Filed Nov. 27, 1951 14 Sheets-Sheet 9 FIGJZ.

INVENTOR- WM? jTzRNEYg June 23, 1936.

J. W. BRYCE RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE FIGJZQ.

M MI nu w Filed Nov. 2'7, 1931 4 Sheets-Sheet l0 I l l I ATTORNEY;

J. w. BRYCE 2,045,435

D MAKING ACCOUNTING MACHINE l4 Sheets-Sheet 1 l June 23, 1936.

RECORD CONTROLLED AND RECOR Filed Nov. 27, 1931 68 imummufigg; 90

W INVENTOR- ATTORNEY? June 23, 1936. J. w. BRYCE 2,045,435

RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Filed Nov. 2'7, 1931 14 Sheets-Sheet 12 FIGJS.

flpzmvsfnlrrzk 1 1 1 1 1 1 1 1 1 1 1 Anon/a [xv/run 11111 111 COUNTERS M5551 0m; 70 Rac 5m rm/e 5/?1/5/1'55 Rea |NVENTOR- ATTORNEYS June 23, 1936. J. w. BRYCE RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Filed Nov. 27, 1951 14 Sheets-Sheet 1s ATTORN EYS June 23, 1936. J. w. BRYCE 2,045,435

RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE Filed NOV. 27, 1931 14 Sheets-Sheet 14 FlG.l7a.

x\' L lNV NT R- (3 EM a W, 7f m r kid L ATTORNEYi Patented June 23, 1936 RECORD CONTROLLED AND RECORD MAKING ACCOUNTING MACHINE James W. Bryce, Bloomfield, N. J., assignor, by mesne assignments, to International Business Machines Corporation, New York, N. Y., a corporation of New York Application November 27, 1931, Serial No. 577,439

15 Claims.

This invention relatesto improvements in accounting machines and more particularly to improvements in record control and record making accounting machines.

6 In the tabulating machine art it is the common practice to add items derived from various fields and records concurrently and due to this concurrent reading of the items from various fields, difllculty has been experienced heretofore in effecting what is known as cross addition.

While cross addition has heretofore been obtainable such cross addition has necessitated the employment of complicated mechanisms in the machine and has also greatly slowed down the operation of these already complex tabulating machines.

The present invention has for its object the provision of a machine of comparatively simple construction in which cross addition results may go be more readily obtainable than heretofore.

A further object of the present invention resides in the provision of a construction which 1 will enable cross-addition to be performed in a record controlled machine once and to render the cross added results available on subsequent re-runs of the records through tabulating machines regardless of re-sorts or re-grouping of the records.

A further object of the present invention resides in the provision of a machine which is adapted to separately handle each record and to derive from each record several separate item amounts into one amount and finally to record back on the record from which the separate item amounts were derived a record of this combined amount.

A further object of the present invention resides in the provision of a machine adapted for the performing of cross adding operations and for recording back upon a record a cross added amount in which provision is made for cross adding to obtain an algebraic sum of the separate items originally read from the record.

A further object of the present invention resides in the provision of a record controlled and record making accounting'machine which is adapted to feed into the machine a series of records in succession, to read several items concurrently from each record as it is passed into .the machine, then to combine the separate items thus read to obtain a cross addition which represents an algebraic summation of the items, thereafter to record back by punching on each record the algebraic record thus obtained and 5 thereafter to automatically eject the completed record from the machine and to automatically reset the machine and to commence a similar operation upon a succeeding record.

Further and other objects will be hereinafter set forth in the accompanying specification and 1 claims and shown in the drawings, which by way of illustration show what I now consider to be a preferred embodiment of my invention.

In the drawings:

Figures 1 and 1a taken together show a top plan view of the machine with certain parts broken away to show the interior construction;

Fig. 2 is a plan view showing certain of the contact mechanisms of the machine;

Fig. 3 is a view showing certain of the card vl5 lever contacts used in the machine. This view is substantially a sectional view taken on line 3-3 of Fig. 4a;

Figs. 4 and 4a taken together comprise substantially a transverse. sectional view of the punching section of the machine, the view being taken substantially on line Ha. of Figs. 1 and 1a and looking in the direction of the arrows;

Figs. 5 and 5a are similar views showing substantially a side elevational view of the punching section of the machine. This view is taken substantially on line 5-5:; of Figs. 1 and 1a looking in the direction of the arrows;

Fig. 6 is an enlarged positional view of certain of the card ejector parts shown in Fig. 4;

Fig. '7 is a positional view of certain of the clutch operating parts shown in a diflerent position in Fig. 5a;

Fig. 8 is an end view 01' the machine, the view being taken from the right of Fig. la. and looking to the left;

Fig-,9 is a detail view showing the intermediate gear drive for the card transfer mechanism;

Fig. 10 is a transverse sectional view through the card handling and record reading section of the machine, the section being taken substantially on line l0--l0 of Fig. 1a and looking in e the direction of the arrows; A

Fig. 11 is a detail sectional view taken in part 45 below the base plate of the machine, the section being taken substantially on line ll-ll of Fig. 1a. This viewshows the main clutch of the machine for controlling the feeding of the cards through the card reading station and the drive 60 for resetting various parts of the machine;

Figs. 12 and 12a taken together showan isometric view of certain parts of the punching mechanism and certain related contact parts;

Fig. 13 is a sectional view through one of the counters or receiving devices of the machine. The section is taken substantially on line l3--I3 of Fig. 1;

Fig. 14 is a detail sectional view taken through one of the emitters of the machine and showing the drive therefor. This section is taken substantially on line l4-l4 of Fig. in looking in-the direction of the arrows;

Fig. 15 is a detail view of the skip lifter and associated parts;

Fig. 16 is the timing chart of the machine; and

Figs. 17 and 17a taken together, show the circuit diagram of the machine.

The machine is intended to be driven by a constantly running driving motor M (Fig. 8). The motor shaft is provided with two pulleys 50 and 5| (see Fig. 5a). The former pulley 50 through a belt drives a punch operating shaft 52 and the pulley 5| through a belt drives a card reading and card computing section main drive shaft 53 (see Figs. 8 and 11). Shaft 53 extends across under the base of the machine and has fast to it a toothed member 54 of a one revolution clutch (see Fig. 11), which clutch comprises a pawl 55 adapted to be released to engage the toothed member 54 by the rocking of an armature 56. The pawl 55 is carried on a member 51 which in turn is fast to a gear 58 and to an intermittent gear 59. When the one revolution clutch is engaged, gear 58 through an idler 68 (Fig. 8) drives a gear 6i and rotates shaft 62. Shaft 62 has fast to it a cam 63 which cooperates with a cam follower 64 fast to a shaft 65 carrying picker actuating arms 66 (see also Fig. 10). Accordingly, upon the rocking of shaft 65 a card will be withdrawn from the supply magazine 61 and advanced into the bite of a pair of card feed rolls 68. Feed rolls 68 are in a gear train with other rolls 69 and rotate in unison therewith. This ti'ain of feed rolls is driven in the following manner:

Referring again to Fig. 8, shaft 62 has fast to it a gear 18 which through idlers 1| drives a gear 12 shown in dotted lines and mounted on stud 13. Also mounted on studs 13 and fixed to gear 12 is a gear 14 which drives the gear train for the feed rolls 68 and 69 previously referred to. Mounted on shaft 38 (Fig. 10) is a card transfer device 15 of conventional type provided with a pair of grippers 16. This device is driven by the following train of mechanism (see Figs. 8 and 9). Shaft 62 has mounted on it an intermittent gear 3| of the usual type, which gear is adapted on the last fifth of its revolution, to drive a gear 32 which gear in turn through idler 33 drives a gear 34 mounted fast on shaft 38 carrying the card transfer rolls 15. This card transfer device is similar to the usual stackers as heretofore used in tabulating machines. The card transfer device is so related and timed that a card emerging from rolls 69 (Fig. 10) is gripped by one of the grippers 16 and deposited in the tray of the punching section of the machine.

Shaft 62 makes one revolution for each card fed into the machine by the picker and gear 3| makes a corresponding complete revolution and during the last fifth of this revolution the card transfer device 15 is turned through one-half of a revolution to take a card which has emerged from the feed rolls 69 and place it in the tray of the punching section of the machine.

The card handling mechanism previously described, is adapted to traverse the card past a row of sensing brushes 11 (Fig. 10) of conventional form, which brushes are adapted to concurrently read multiple columnar perforated data from the Drive for computing section of the machine Referring again to Fig. 11, the mutilated or Geneva gear 59 cooperates with a gear 8| and through idler gear 82 drives a gear 83 upon a reset shaft 84. It will be understood that during rotation of 59 in the direction of the arrow, the

first motion of the gear is to unlock Thereafter gear 59 drives tational movement to the reset shaft 84. The reset shaft 84 is also shown in plan in Figs. 1 and 1a. and as is customary in tabulating machines, individual reset drives and clutches are provided for each counter. These resetting devices are of the type shown in Lake United States Patent No. 1,600,414, dated September 21, 1926.

Counter drive The shaft 53 (Fig. 8) extends through the gears 58 and 59, these gears being relatively rotatable upon the shaft 53 but each secured to each other and fixed to part 51 of the one revolution clutch. The extended part of shaft 53 beyond gears 58 and 59 (see Fig. 14) carries a gear 85 which is fixed to the shaft and which gear 85 meshes with and drives a gear 86. Gear 86 is disposed upon and fixed to the counter drive shaft 81. Gear 86 is also shown in Fig. 1a and is disposed upon the end of counter drive shaft 81. One revolution of gear 85 and of shaft 53 turns the counter drive shaft 81 through five revolutions. It' will be understood that the counter drive shaft 81 extends through and drives all of the various counters and/or receiving devices of the .machine. These will be briefly mentioned at this point as follows:

Referring to Figs. 1 and In three counters or 8| and imparts a roreceiving devices are shown. Obviously the int vention is not limited to this particular number of counters or receiving devices. In its simplest embodiment 0-1 and C2 are counters or receiving devices adapted to receive item entries and CS is a summation counter adapted to receive entries in succession from CI and C2. CS can also directly receive items. Cl can be a converting counter in the event that it is desired to substract one entered item from the other entered item instead of to add the two entered items.

Emitter drive Alongside the gear 86 (Figs. 1a and 14) there is another gear 88 which meshes with a gear 89 fixed on a shaft 98, which shaft constitutes an" emitter brush drive shaft. As shown in Fig. 1a, three emitters 9|, 92, and 93 are provided, each having a brush such as brush 94 (Fig. 14) cooperating therewith. Each emitter is of the conventional construction embodying a number of conducting spots or segments as shown in Fig. 14.

Cam contact controls Referring to Fig. 2 shaft 62 is provided with a this sort is shown in Fig. 13 and comprises a ring I00 of insulating material provided with a proper number of conducting segment members or spots |0I. Within the ring of insulating material is arranged to rotate a dual brush structure generally designated I02 and which brush structure is driven by gear I 03 from the gear on the clutch shaft of the counter. The brush assemblage I02 receives its current supply from a common conducting segment I04. The current is ted in through I04 through one of the brushes, thence to the other brush, thence out through one of the segments depending upon the setting oi the counter or receiving device. All of the various counters or receiving devices are provided with i the usual relayless contacts I06 which open up upon energization of the counter magnets. The C--| counter or receiving device is providedwith ten conducting spots or segments and the same number of spots or segments are provided on the readout device for the CS counter. The C2 counter on the other hand only requires nine segments but for simplicity of manufactureit can be provided with ten segmentsand one segment left unwired. On the circuit diagram, however, it is shown as provided with ten segments. Before describing the drive of the punching mechanism or the operation of punching a summation of cross added amounts or cross subtracted amounts back upon the card, an explanation will be given of the entry of items into the machine and of the computing operations and the controls therefor. For this explanation, reference will be made to the circuit diagram.

Referring to the circuit diagram (Figs. 17 and 170) the main supply of current is received over a wire marked plus and designated 0. The other side of the circuit is grounded and will have the usual and conventional ground designation. M is the driving motor and this motor is set in operation by closing the motor switch II I. To start the machine in operation, assuming that there are cards in the supply magazine 61 (Fig. 10), the start key 2 is depressed. Depression of the start key will establish a circuit through III, through the start key contacts, through relay II4 and back to ground. The relay points of H4 will be closed and the circuit will also be established through I I5 now closed, through contacts II 6 now closed, through the card reading feed and reset clutch magnet II'I to ground. Magnet I I1 is the magnet shown in Fig. 11 which controls the one revolution clutch which starts the card feed in action and resets the various counters and receiving devices of the machine. A card feed now ensues and a card is picked up by the picker and advanced to close card lever contacts (Figs. 10 and 17). As stated previously, contacts 19 are closed whenever there are cards in the card magazine. At the proper time in the cycle of operation of the machine, current is supplied to contacts by cam contact devices F-9 and F-|, which are those conventionally useddn tabulating machines. Closing of contacts I"-9 and F-I and closure or card. lever contacts 90 supplies current to the common bar of the card sensing brushes and the card will then be read by the brushes in'the usual man-- her and the readings of item entries from the card will be concurrently read in to the receiving devices C--| and C?2 and also into CS it the machine is so plugged, and these items will be entered into the respective receiving devices. At the same time that the contacts 00 close, contacts I9 are likewise closed provided a card or cards are in the magazine so that a holding circult is provided around the start key H2, which start key may now be released.

The entry circuits into the Cl and C2 and CS counters and receiving devices may be traced.

as follows: Via plug connections generally designated 9 to the counter magnets oi. the CI receiving device, through the I06 contacts previously reierred to and back to ground. The entering operation in the Cl counter will have set up the brushes generally designated I02 0! the CI counter readout device and will have displaced the brushes to stand upon selected spots on each of the readout segments pertaining to the various orders. Entry of another item from the same card is effected into the C2 counter via plug connections I20 and via the usual wires to the C2 counter magnets and thence through the usual relayless counter contacts I06 and back to ground. There will be acorresponding setting of the itemv entered into the C2 counter on the readout devices pertaining to this counter. Other plug connections |2I may be provided to enter an item from a card into the CS counter in the usual way and set up this item reading upon the CS readout devices.

In the operation of the machine, in some cases, merely two items will be derived from a card and no'item entry will be directed into the CS counter from the card. The arrangement of the machine is flexible so that entries from the card can, for example, be directed into the C2 and CS counters and these entries can be subsequently gathered together in CS or alternatively entries can be made into CI and C2 and these two entries gathered together into CS or alternatively entries can be made into CI and C2 and CS and then all of these amountsgathered together in CS.

Referring to the circuit diagram, the emitter 9| is an emitter utilized for cross adding operations. Emitter 92 is an emitter used for cross subtracting operations and the emitter 93 associated with counters C2 is a cross adding type of emitter. Emitters 9| and 92 are arranged to selectively receive current through a circuit path traced as follows: from line 0 via wire I22, relay coil I23, contacts F-| through a switch I24, which switch can be alternatively thrown to the A position to supply current to the emitter 9| or to be reversely thrown to the S position to supply current to the emitter 92. Current is thus supplied to the brush 94 of either emitter 9| or 92. On the C-| counter the readout devices are generally designated I00 and'as here shown, tour of I larly numbered spots of the readout devices I00b, I000 and I00d will be rendered live. The outgoing circuits from the foregoing readout devices I00b, I000 and I00d extend through the arms of gang switch I 26 and through contacts I290 which are adapted to be closed upon the energization of coil I23 previously referred to. The contacts I230 pertaining to the I001), I000 and I00d readout devices extends through a gang switch I26 which, when in the A position as shown, is adapted to place the I00b, I000 and I00d readout devices in circuit. This A position is for cross adding in which case I00b is for reading units, I000 for tens and I00d for hundreds and so on. For such addings the plug connections II9 are suitably placed to properly allocate the columns of the counter to the entry circuits. For cross subtracting the plug connections II9 are moved over one place so the entered amounts enter the columns in the counter so that I00a readout is associated with units entries, I00b the tens and 00 the hundreds and so on. For subtracting the I26 gang switch is thrown to the S position which coordinates lines I21 to the proper readout devices. Accordingly, on a cross summation where adding is involved the circuits to the brushes will be plugged up to the CI counter in such a manner that I00b is the units order of the counter. I000 is the tens order, I00d is the hundreds order and so on. Upona subtracting operation the circuits are plugged up so that I00a is the units order, I00b is the tens order, I000 is the hundreds order and so on.

The conducting segment spots of emitter 92 are connected in a reverse manner to the buses I25, that is the 9 spot of emitter 92 is connected to the bus I25 which is in turn connected to the zero spots of the readout devices I00b, I000 and MM. The interconnection of the segment spots of readout device I 00a to the buses I25 is different however. It will be noted that the units segment spot of I00a is interconnected to the uppermost I25 bus line, which respectively extends to the ninth spot of the 92 emitter. Accordingly, emitter '92 emits impulses in a tens complementary relation to readout device I00a and emitter 92 emits impulses in a nines complementary relation to readout devices I000 and IOIId. It will be assumed that an item is entered in the CI counter and another item is entered in the CS counter and that switch I24 is thrown to the A position as shown. At the proper time in the cycle of the operation of the machine FI will close, current will be supplied to the emitter 9I emitter 9I will emit its impulses on bus lines I25 and readings of the amount standing on the CI counter will be derived by the readout devices I00b, I00cand I 00d and the impulses will flow over lines I2'I to the counter magnets of the CS counter, causing the amount standing on counter CI to be added to the amount on counter CS. Transfer over from C2 to CS is effected in a similar manner. Emitter 93 coming into action upon closure of contact F-4 and this transfer over operation occurs at a different time in the cycle of operation of the machine so that there is no interference of transfer of entry from the C--I counter. The circuit to emitter 93 also extends through a relay coil I28, which closes I280 contacts to allow the impulses to flow out of the readout devices pertaining to C2. If substracting operations are to be performed, switch I24 is thrown to the S position, then during the operation of the machine the complement of the amount standing on the CI counter will be transferred over to the CS counter so that there will be a subtraction of the amount derived from CI from the-amount in CS and such subtraction will occur irrespective of whether or not other additive amounts flow to CS from C2.

In passing, it may be mentioned that the machine is not intended for balancing with negative balances. It is assumed that it is to be used on positive balance operations only.

The foregoing description has descriped how entries from a common record into CI, C2 and/or CS can be cross added or summed up in the CS counter. It has also been explained how one entry, viz. that from the CI counter can be subtracted in lieu of being added to the gathered together amount. In practice any number of subtracting and adding counters can be employed, but for simplicity of illustration one has been shown here adapted for subtraction and the other counter C2 has been shown as adapted solely for addition.

It may be explained that after a card has passed the sensing brushes I1 and after the amounts have been derived therefrom, such previously read card will be advanced by rolls 99 (Fig. 10) and gripped by one of the grippers IS on the transfer roll I5 and carried around and deposited in the tray of the punching section of the machine. Deposit of the card by the transfer cylinder 15 in the punching section of the machine actuates card lever I90, opening up contacts H5 and closing contacts I35 (-see Fig. 3).

Referring to the circuit diagram (Fig. 17) the opening of contacts II5 interrupts the circuit to the card feed clutch I I1 and accordingly card feed is automatically suspended. Associated with card lever I30 (Fig. 3) is a latch device I30awhich latch device holds the contacts II5 open and I05 closed until the latch is released in a manner to be subsequently explained. The machine is now ready to record back upon the record card from which the item or items were derived the cross summation or cross subtraction derived by the previous operation of the machine.

Pumching mechanism The punching mechanism will now be briefly described. In general this mechanism is of the form shown in Lee and Phillips United States Patent No. 1,772,186 and in Lee and Daly application Serial No. 391,874, filed September 11, 1929 (British Patent No. 362,529). Certain features are also shown in George F. Daly application Serial No. 461,993, filed June 18, 1930. In general it may be stated that the punching mechanism is adapted to receive a record card in the receiving tray as shown in the isometrical view in Fig. 12a, R. designating the card in this position. In this position the card is in a proper position to be engaged by a picker I50 mounted on a bracket which is carried by card feed rack I SI. On the movement of the card feed rack ISI to the left from its position shown in Fig. 12a, the card R is transferred by the picker and card feed rack to an intermediate position shown in dotted lines and designated RI on Fig. 12a. After the card reaches the Rr-l position its further movement through the punching mechanism 01' the machine is eifected by the spring actuated card carriage rack I52, which card carriage rack has a suitable pusher I69a attached to an arm carried thereby. Certain interconnecting mechanism is provided intermediate the card feed rack I5I and the card carriage rack I52 and certain other driving mechanism is provided for actuating the card feed rack I5I. 4

Referring to Fig. 5a, 82 has been previously described as a constantly running shaft. Such shaft rotates at all times when the motoris in operation. This shaftv 82. through a" worm drive I54 (Figs. 12a, 10and 4a) is adapted togdrive a shaft I55, one end of which has secured thereto a ratchet shapedclutch element'I82 (seeFig. '1 Loosely mounted on shaft I88 is a gear I83 meshing'with teeth on the under side of rack I8I and to which gear is secured a disc I84.

Pivoted at I to disc I84 is an arm I88 havin a clutch tooth I81. The free end of arm I88 is connected to a toggle plate I88 by a link I89. The end of the toggle plate I88 at a distance from its pivot I18 isfarticulated at "I to a rod I12. -The rod I12 is urged by a spring I13 and fits in an aperture in a pin I18 rotatably mounted on the disc I84. By virtue of this construction, rod I12 and plate I88 act as a toggle, spring I13 acting to impositively hold tooth I81 in or out of engagement with the clutch teeth of the ratchet wheel I82.

For the purpose of effecting the clutching action a magnet I15 is provided which when energized, attracts an armature I 18 so that an arm I11 engaging a pin I18 of arm I88 will rock the tooth I81 into engagement with the ratchet wheel I 82. This action shifts the toggle parts from the position shown in Fig. 5 to that shown in Fig. 7. The spring I13 acts to hold the clutch tooth in engagement with the ratchet teeth. Gear I83 will thereupon be driven in a counterclockwise direction substantially asingle revolution, thereby shifting rack I5I to the left.

At the termination of the counterclockwise movement of gear I83 a tail I19 of plate I88 will strike a projection I88 of a fixed plate I8I to effect the disengagement of the tooth I81 from the ratchet wheel I82 by a reversed action.

The rack I5I (see Fig. 1211) has inter-geared with it a small pinion I82 which has its shaft extending into the usual spring barrel I83. This spring barrel is similar to that shown in the Lee and Phillips patent referred to (see Fig. 30 of that patent).

Upon disengagement of the one revolution clutch shown in Fig. '7, the rack I5I will return to the right under the influence of the above spring. The previous movement of the rack I5I to the left has carried a record card from the R position to the RI position.

The driving train of the card carriage rack I52 will now be described. Rack I5I intermeshes with a gear I84 which is suitably supported for rotation and fixed to a member I85 (see Figs. 12a and 5a) having a single tooth in the plane of a pawl I88 pivoted to a plate I81 fixed to the shaft I88. At its other end shaft I88 is provided with a gear I88 meshing with the card carriage rack I52.

To control the clutching of the clutch device (i. e. the action of pawl I88 with member I85) a camming element I98 cooperates with a pin on the tail of the pawl I88. The rack I5I near its left hand end has fixed to it a block I92 which block is adapted to cooperate with the pin I93 carried by the pivoted camming element I98. With the rack I5I in extreme right hand position (see Figs. 5a and 120.) the pawl I88 will be disengaged from the clutch element I85. Upon the motion of the rack I5I to the left the block I92 will release the cam I98 and permit I88, un-

der spring action, to engage I88. Thereafter rotational movement will be imparted to shaft I88 and through gear I89 the card carriage rack I52 will be traversed to the right. I82 by the mechanism just described, will be shifted to its extreme 5 right hand position permitting the card pusher I83a to ride over the surface of the card under it and ultimately engage back of the trailing edge of the card at the R-I position (Fig. 120) I52'has associated with it a spring driving de- 18 vice generally designated I94. This spring barrel is fully described in the Lee and Phillips patent above referred to (see part 83, Fig. 9 of that patent). The rack I52 also has associated with it an escapement mechanism I98 having a dog I85a 15 (see also Fig. 15). This escapement mechanism is of the general type shown in U. S. patent to Schaafl, No. 1,426,223 and is also similar to the escapement device provided in the Lee and Phfllips patent above referred to. Removably secured to the card carriage rack I52 is a skip bar I98. This skip bar is of the general construction shown in the Lee and Phillips patent but differs in that the skip bar is provided with a notched portion I91 and according to the location and length of this notch a skip lifter lever I98 (see Fig. 15) is adapted to be allowed to descend or to remain'in elevated position. when the skip lifter lever drops in the notch I 91 it allows dog Ia of the escapement mechanism to cooperate with the upper teeth of the rack I52. Such dropping of the skip lifter lever I98 is also adapted to close contacts I99. It will be understood that with the skip lifter lever I98 riding ontop of the skip lifter bar I98 that the escape- 35 ment will be disabled so that the card carriage rack can traverse without stopping at each card column until the notch I91 is encountered. Thereafter an intermittent motion of the card carriage follows under spring action and such movement is continually controlled column by column under the control of the escapement mechanism until the skip lifter bar is again elevated by riding out at the end of notch I 91.

It will be understood that skip bars of different configuration with the notches I91 of different lengths can be placed on the card carriage rack and in this way the intermittent motion and punching action can be brought about at selected points on the card according to the conformation of the skip bar.

It will be understood that with the above skip bar construction that after the card is in the R-I position (Fig. 12a) and engaged by the pusher I83a of the card carriage rack I52 that immediately thereafter the card will be traversed with a continuous movement to the left until the skip bar notch I91 comes into action to stop the card carriage. The card will then be in a position for the beginning of punching.

The punching mechanism need not be fully described as the same is fully set forth in the Lee and Phillips patent above referred to. In brief it comprises a set of punches 288 (Fig. 4a) which punches are adapted to be depressed to 65 perforate the card by the action of interposers 28I and operating bail 282. The interposers 28I are selectively thrust forward to bring about punching action either by means of the keys 283 or by the energization of punch selector magnets 70 288. Ball 282 is magnetically operated by means of a punch operating magnet 285. The connections to the bail 282 from the armature .of the punching magnet are shown in Fig. 5a and are generally designated 288. Energization of ma 7 net 205 is effected by means of a bail 201 (Fig. 5a) which ball is adapted to be rocked upon the thrusting forward of any of the interposers. Rocking of the bail 201 through a link 200 is adapted to close contacts 209 and bring about energization of magnet 205. As is customary in machines of this class the contacts 209 immediately open after the magnet 205 has attracted its armature and brought about its punching operation.

Referring to Fig. 12, alongside the card carriage rack I52 and fixed to the frame of the machine, is a member 2I0 carrying a plate of insulating material 2| I. Disposed in the plate of insulating material are a number of spots of conducting material 2I2 and alongside of these spots is a common strip of conducting material 2I3. A suitable bridging piece or brush member 2I4 is carried by the card carriage rack I52 and as the rack moves, the bridging piece 2I4 is displaced and establishes circuit connections from the common bar 2I3 to one of the spots 2I2, de pending upon the columnar position of the card carriage rack I 52 (see also Fig. 17a).

Referring to the circuit diagram (Fig. the individual spots 2I2 are wired to plug sockets generally designated 2I4 and by means of plugging connections 2I6 selected sockets 2I5 can be connected to sockets 2I1. Sockets 2" in turn are connected by conductors 2I8 to the readout devices pertaining to the CS counter. The conducting spots of the readout devices of the CS counter are all connected as shown, to a set of lines 220 which lead to the punch selector magnets 204 as shown.

Previous explanation has been made of how the card is transferred into the cardtray of the punching mechanism. With the card in the card tray of the punching mechanism, the card lever I36 (Figs. 3 and 12) has closed contacts I 35 and opened contacts II5. As previously explained these contacts are maintained in the relation above set forth by a latch I36a, which latch is interconnected by the linkage shown in Fig. 120. to a rod 222, which rod extends over to the left end of the card carriage rack I52. Here the rod 222 connects to a finger 223, which extends in back of the card carriage rack I52. 223 also has an extension 224 in cooperation with contacts 225 which are closed when the card carriage rack I52 is in the extreme left position and which are opened at all other times.

It will be understood that the latch I36a will not latch up the card lever I 36 until rack I52 moves to the right so that the finger 223 can move to the right and follow the rack. Immediately upon this action taking place, however, contacts H5 and I35 will be latched up, II5 being latched open and I35 being latched closed. However, the presentation of a card into the tray 'of the punching section of the machine will close contacts I35 and open contacts II5. Cam contacts F3 are disposed on shaft 62 (see Fig. 2) and these are arranged to close just after the card is placed in the tray. With the card in the tray of the punching section, contacts I35 will be closed. Closure of these contacts I35 (see the circuit diagram Fig. 1'7) will energize magnet I15. Magnet I15, it will be remembered, is the magnet which actuates the one revolution clutch shown in Figs. 5a and 7 and accordingly upon energization of I15 the card feed rack I5I will be displaced to the left and the card carriage rack I52 will be displaced to the right (Figs, 12

and 12a). Accordingly, the card will be displaced from the R position to the R,I position (Fig. 12) and then will be picked up by the card pusher I 63a and carried down to the position determined by the low portion of the skip bar I96. The opening of the contacts II5 (see Fig. 17) prevents further energization of the feed clutch magnet H1 and discontinues card feed until the punching operations have been completed.

It will be understood that the card feed rack I5I moves to its extreme left position when its one revolution clutch is energized. When the card feed rack I5I reaches such position, see the dotted line position on Fig. 12, this rack thrusts a rack 230 to the left compressing a spring 23I. Bearing against a shoulder on rack 230 is a contact operating part 232. When 230 is thrust to the left, contacts II6 will be open and contacts 234 will close. The displacement of 230 to the extreme left position will also through the intermediate gears 235, rock a shaft 236 in a clockwise direction to bring an ejector clip assemblage 231 from the position shown in Figs. 12 and 5, to the position shown in Fig. 6. With the ejector clip assemblage 231 in displaced position this assemblage will be latched in such position by means of a latching pawl 238. With the ejector clip assemblage 231 thus latched up, energy will be stored in the spring 23I and thereafter the card feed rack I5I can move back to the right position shown in Fig. 12a.

The previous description has explained how the card is brought down to the position ready to receive a summation punching.

At the end of the transfer over of amounts from the C--I and C-2 counters to the CS counter the cam contacts, F5 close. Closure of these contacts energizes relay PC3 and coil PC-I (Fig. 17a). Upon energization of PCI the contact points of PC--I are closed and upon closure of the skip bar contacts I99 current flows from the high side of line IIO through I99 now closed, through contacts PCI now closed to the common contacting bar 2I3. The bridging piece 2 I4 will have been previously traversed from the position, shown in Fig. 17a to the extreme right hand position and then back to align with the proper spot 2I2 as determined by the skip bar. Current will now flow from 2 I3 through one of the spots 2I2 and through the right hand plug connection 2I6 to the conductor of the group 2I0 which leads to the highest order of the readout devices I00 of the CS counter. Current will now flow through this highest order readout device through one of the lines 220 and will energize a single one of the punch selector magnets 204. In this way there will be a punching of the digit representing the highest order of the summation standing on the CS counter. Immediately upon the punching of this highest order numeral the escapement mechanism of the punch will operate, the switching device 2 I4 will be moved one spot further to the left (Fig. 17a) and there will be an energization of the punch selector magnet under the control of the readout mechanism pertaining to the next lower order of the CS counter. This operation will continue until punching of the entire summation is completed. Following the punching of the units order amount of the summation, the skip lifter lever I98 will again be elevated releasing the escapement and allowing the card carriage rack I52 to be traversed under spring power to its extreme left position (Fig. 12). The card which has just been punched will then enter the jaws of the ejector assembly (see Fig. 

